KR102503818B1 - An electric lighting board for distributed auto power saver of PIS - Google Patents

Abstract

The present invention relates to a distributed automatic power saving electronic signboard using pixel integrate scanning (PIS). The distributed automatic power saving electronic signboard using PIS, according to the present invention, comprises: a video signal source (100): a main control unit (200); a sub-controller unit (300); and an LED electronic signboard module (400). According to the present invention, unnecessary power loss can be controlled.

Description

PIS(Pixel Integrate Scanning) Distributed Automatic Power Saver {An electric lighting board for distributed auto power saver of PIS}

The present invention relates to power saving of an LED signboard module, and more specifically, in driving the signboard, the power supplied to the LED module is a correction value equalized in a histogram by a PIS controller value through a reference value of a gamma controller image value of an input image PIS (Pixel Integrate Scanning) distributed type that can control the drive of the LED signboard to save power through PIS control so that there is no unnecessary power loss by controlling the drive current of the signboard LED module according to the change in the distributed subtraction loss value compared to the gain controller It is about an automatic power saving electric signboard.

In addition, the present invention normalizes the current supplied to the LED module with a histogram of the reference value of the first image (white, red, blue, green) color values on the basis of the image pulse, sets the value of the current (If) flowing through the LED, The difference between the image reference value and the image correction value normalized by the histogram is compared in the image gain controller, and the change in the subtraction loss value is determined by the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size, and the current for displaying on the signboard It relates to a PIS (Pixel Integrate Scanning) distributed automatic power-saving electric signboard in which power-saving is done automatically by specifying a value and transmitting the LED module.

LED (Light Emitting Diode) refers to a light emitting diode, which is a semiconductor device that emits light, and is widely used in various electronic products and electronic display panels such as instrument panels in various colors such as red, green, blue, and yellow.

Among them, the LED display board arranges a plurality of LEDs in a matrix form, and the plurality of LEDs arranged in a matrix form a pixel for displaying an image, so that an image can be displayed. These LED signboards are installed and used in various forms outside or inside buildings to transmit advertisements or various information.

Conventionally, an electric signboard system is known that displays information such as various characters or pictures by arranging LEDs or small fluorescent tubes in a matrix form.

The electronic signboard system receives video signals from AV devices such as video media such as DVD, VCR, and broadcasting equipment, and converts them into appropriate signals for displaying images on the electronic signboard.

In recent years, LED signboards have been widely used to express moving images such as TV advertisements, moving away from expressing text or still images for simple information transmission, and as they become larger, the power consumed by LED signboards is increasing. In view of the continuous demand for reduction technology, technology for reducing power consumption in LED signboards is also required.

Accordingly, attempts have been made to operate LED display boards with low power and to minimize standby power consumption. Korean Patent No. 10-2015635 "High Efficiency Power-Saving LED Display Board that Blocks Standby Power" and Korean Patent No. 10-2015636 "System that cuts off standby power by extracting no-load LEDs" are driven according to the difference in brightness of LED colors. It proposes a way to reduce power consumption by setting the time differently. Korean Patent Registration No. 10-1035026 "Power-saving LED display board using standby power control" controls the switching signal of the SMPS (Switching Mode Power Supply) that supplies power to the LED panel and panel driver to provide power in standby mode operation. Suggests a way to reduce standby power by blocking

That is, as shown in the accompanying circuit diagram of FIG. 1, the resistor R is usually fixed and has a series connection structure with the LED. ) value, the brightness of the image and the existing Vf value of the LED CHIP are driven with a fixed value, so it cannot respond to changes in the operating current (if) value, so active power is consumed. There is a problem in that the life of the LED module is shortened due to heat consumption in the module and the LED CHIP.

Therefore, the conventional LED display board control method has a problem of performing power monitoring on the image source, video controller, LED module, power, etc. of the entire system of the display board. In addition, as an intelligent image analysis program analyzes the images to be displayed on the entire screen and controls the SMPS of the corresponding screen portion on/off, a considerable number of additional devices are required. That is, the conventional LED display board requires complex facilities such as a power monitoring device and an image analysis program for low-power design, and there is a problem in that the existing standardized system needs to be changed considerably. Furthermore, there is a problem that significant power consumption is made in the added devices.

Therefore, the present applicant has devised a power saving plan according to PIS control so that there is no unnecessary power loss by controlling the drive current of the LED module for the display board for the input image value, away from driving the power supply to the LED module with a simple register circuit method in the display drive of the display board. would like to propose

1. STANDY POWER SAVING TYPE LED SIGNAGE (Patent Registration No. 10-2474187) 2. Energy-saving LED electronic display board that programs driving power for each LED (Patent Registration No. 1013033865) 3. Power saving control system and method for LED electronic sign (Patent Registration No. 10-1385264) 4. LOW POWER DRIVEN DISPLAY BOARD (Patent Registration No. 10-1046114)

The present invention is to solve the above problems, drive control that easily implements high-definition video, and the current supplied to the LED module by leveling the reference value of the first video color value with a histogram based on the video pulse reference value, so that the current flowing through the LED (If ) value, the difference between the image reference value of the gamma controller and the image correction value normalized by the histogram is compared in the image gain controller, and the change in subtraction loss value is calculated by the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size. It is to provide a PIS (Pixel Integrate Scanning) distributed automatic power-saving electric signboard in which power saving is automatically performed by determining and transmitting a current value for displaying the electric signboard.

In addition, in the present invention, the power supplied to the LED module in driving the LED display board changes the variance subtraction loss value compared with the correction value equalized in the histogram by the PIS controller value through the reference value of the gamma controller image value of the input image. It is to provide a PIS (Pixel Integrate Scanning) distributed automatic power-saving electronic signboard capable of controlling the driving of the LED signboard by controlling the driving current of the signboard LED module to save power through PIS control so that there is no unnecessary power loss.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, a PIS (Pixel Integrate Scanning) distributed automatic power-saving electronic signboard according to an embodiment of the present invention includes an image signal source supplying an image signal to be displayed on an LED electronic signboard module; PIS power saving control normalizes the input image signal to a histogram, sets the current (If) value flowing through the LED, and compares the difference between the image reference value of the gamma controller and the image correction value leveled with the histogram in the gain controller to change the image quality , MCU (Main Control Unit) that transmits the corresponding image information so that power saving operation is achieved by determining the change in the subtraction loss value by the difference in power consumption of the displayed image in consideration of brightness and image size, and designating a current value for displaying it on the electric signboard; The difference between the image reference value of the gamma controller and the image correction value leveled with the histogram is compared with the current value set by equalizing with the histogram transmitted through the PIS Power saving Control of the MCU, and the gain controller compares the value before and after correction of the image. SCU (Sub Controller Unit) that transmits the difference after the PIS DATA value signal to the LED module so that it is expressed; And a unit display module formed by arranging a plurality of LEDs per n × m pixels of Dot (R, G, B) in the form of a module array is arranged in a matrix form to form a screen, and the image signal input through the image input device An LED signboard module that receives and displays image information according to the change in the variance subtracted loss value compared with the gain controller and the correction value equalized in the histogram by the PIS controller value through the reference value of the image value of the gamma controller for display. characterized by

At this time, the Main Control Unit (MCU) of the PIS distributed automatic power-saving electronic display board according to the embodiment of the present invention receives the image data input from the video signal source and generates the driving current to drive each light source of the LED display module. process, when the video data of the video signal source is played through the video switcher, the corresponding video data is stored. The frame memory that retrieves and transmits the stored video data, and the video data input through the frame memory is leveled into a histogram to LED By setting the current (If) value flowing through the module, the difference between the image reference value of the gamma controller and the correction value of the image leveled by the histogram is compared in Gain Control, and the difference in power consumption of the displayed image is determined by considering the change in image quality, brightness, and image size. PIS Power saving Control, which determines the change in the deduction loss value and sets the current value for displaying on the electric signboard to automatically operate the LED module in power saving mode. By improving the refresh rate of high and low gray scales, capturing the balance equally distributed in the time domain, adjusting the frame frequency of the output image to reduce flicker due to pigmentation, Gray Pixel Control, Histogram A gamma controller that executes a leveling operation with a histogram of image luminance and gamma correction of the image by switching the image data value for which the gamma value is determined by gray-scaled image in the Gray Pixel Control 240 by scanning and displaying the image, and the input cycle According to the flicker occurrence, the detected flick frequency and the adjusted integration time are set, transmitted to the LED signboard module part, and the corresponding image signal is expressed, so that the flicker for the pigmentation phenomenon is reduced according to the flow of time and cycle. Auto Flicker Detect to ensure It is characterized in that it is configured to further include tion.

In addition, the PIS power saving control of the PIS distributed automatic power-saving electronic display board according to an embodiment of the present invention is the ratio of the number of pixels to the video signal generated by synchronizing the image data stored in the frame memory in frame units with the gamma controller and transmitted. Histogram Equalization, which sets the image reference value of the gamma value by equalizing the distribution of contrast values by dividing and smoothing the contrast values concentrated in one place by displaying as a function. The current (If) value is set, and the difference between the image reference value of the gamma controller and the correction value of the image leveled with a histogram is compared, and the difference in the loss value is changed by the difference in power consumption of the displayed image considering the change in image quality, brightness, and image size. judge. Gain Control that recognizes, input image data is equalized to a histogram through Histogram Equalization, and the current (If) value flowing through the LED module is set to measure the difference between the image reference value of the gamma controller and the correction value of the image leveled with a histogram in Gain Control. PIS that controls the LED module to power-saving operation by comparing and determining the change in the deduction loss value due to the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size, and transmitting it by specifying the current value for displaying on the display board It is characterized in that it is configured to include a control.

In the PIS (Pixel Integrate Scanning) distributed automatic power-saving electronic signboard according to an embodiment of the present invention, the power provided to the LED module for driving the LED electronic signboard is histogram equalized by the PIS controller value through the reference value of the gamma controller image value of the input image. Unnecessary power loss can be controlled by controlling the driving current of the display LED module according to the change in the calculated compensation value and the compared dispersion subtraction loss value of the gain controller.

In addition, the present invention sets the current (If) value flowing through the LED by leveling the current supplied to the LED module with a histogram of the reference value of the first image value (white, red, blue, green) color value on the basis of the image pulse, and sets the gamma The video gain controller compares the difference between the video reference value of the controller and the image correction value normalized by the histogram, and determines the change in the subtraction loss value by the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size. By specifying the current value and transmitting it, the LED module is automatically power-saving, providing an effect of minimizing power loss due to driving the LED display board.

In addition, the PIS (Pixel Integrate Scanning) distributed automatic power-saving electronic signage according to an embodiment of the present invention sets the current supplied to the LED module as a value determined by the histogram gain controller as a reference value and corrects the image by leveling it. The difference before and after correction is designated as the display current (If) value of the LED module as a signal of the PIS DATA value, and the difference between the image reference value of the gamma controller and the image correction value leveled with a histogram is used to save power due to the difference in power consumption of the displayed image. By controlling the driving current of the LED module, it is possible to overcome the limitation of power consumption according to driving the display board.

1 is a Dot Register configuration circuit diagram of a conventional LED module
2 is a configuration diagram of PIS (Pixel Integrate Scanning) distributed automatic power-saving electronic signage according to the present invention.
3 is a block diagram of a PIS (Pixel Integrate Scanning) distributed automatic power-saving electric signboard MCU according to the present invention.
4 is an internal block diagram for PIS power automatic control driving of the MCU of FIG. 3
5 is a detailed circuit diagram for driving the PIS Control of FIG. 4
6 is a configuration diagram of a PIS (Pixel Integrate Scanning) distributed automatic power-saving electric signboard SCU according to the present invention.
Fig. 7 is a block diagram showing the internal configuration of the Module Driver Unit of Fig. 6;
8 is a state diagram showing a PIS driving histogram control operation according to the present invention.
9 is a Dot Register configuration circuit diagram of the LED module according to the present invention

Hereinafter, a detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In the present specification, when one component 'transmits' data or signals to another component, the component may directly transmit the data or signal to the other component, and through at least one other component. It means that data or signals can be transmitted to other components.

In order to control the driving power of the LED display board, the power supply of the LED module, which is generally driven by a simple register circuit, is supplied through the reference value of the gamma controller image value of the input image, and the correction value equalized in the histogram by the PIS controller value and the gain controller Provided is an LED sign board control technology capable of power saving according to PIS control so that there is no unnecessary power loss by controlling the driving current of the sign board LED module according to the change in the compared dispersion subtraction loss value.

2 shows the detailed configuration of a PIS (Pixel Integrate Scanning) distributed automatic power-saving electronic signboard according to the present invention, which largely includes a video signal source 100, an MCU 200, an SCU 300, and an electronic signboard module 400. It is composed by The video signal source 100 provides a video signal to the LED signboard module 400 . The LED display module 400 is provided in the form of dot (R, G, B) pixels, receives the image signal, and displays the driving expression Dot (R, G, B) in the form of multi-dot pixels.

The video signal source 100 is a source that supplies video signals to be displayed on the LED signboard module 400, and is a device that reproduces video media such as DVD, HDMI, DP, or VCR, or retrieves video data stored in memory. It may be a computer transmitting to the LED signboard module 400, but is not limited thereto.

The MCU (Main Control Unit) 200 normalizes the input image into a histogram through the PIS power saving control 230, sets the current (If) value flowing through the LED, and sets the image reference value of the gamma controller and the image correction value leveled with the histogram. The image gain controller compares the difference in image quality, brightness, and image size to recognize the change in the subtraction loss value due to the difference in power consumption of the displayed image, so that the power saving operation is automatically performed, and the image information is transmitted to the LED sign board module. (400) to be expressed.

The SCU (Sub Controller Unit) 300 gains the difference between the image reference value of the gamma controller and the image correction value leveled with the histogram of the set current value by equalizing it with a histogram through the PIS power saving control 230 of the MCU 200 According to the value determined by comparison in the controller, the difference between before and after correction of the image is transmitted to the LED module 400 as a PIS DATA value signal to be expressed.

That is, in the generally driven electric signboard image display control, the image data transmitted from the MCU 200 is transmitted to the LED billboard module 400 to control the image data so that the image can be displayed, but the present invention Through the PIS power saving control 230 of the MCU 200, the reference value of the color values of the input image values (white, red, blue, green) is leveled into a histogram, and the current (If) value flowing through the LED is set to set the image reference value of the gamma controller. and the difference between the image correction values normalized by the histogram are compared in the image gain controller, and the difference between before and after correction of the image is transmitted to the LED module 400 as a PIS DATA value signal in consideration of the change in image quality, brightness, and image size to be expressed

The LED signboard module 400 forms a screen by arranging a plurality of LEDs for each Dot (R, G, B) n × m pixel in Module Array format and arranging a unit display module in a matrix form. Regarding the video signal input through the gamma controller, the driving current of the LED module is controlled according to the change in the compensation value equalized in the histogram by the PIS controller value and the variance subtracted loss value compared with the gain controller through the reference value of the video value of the gamma controller. work to express

In addition, the LED signboard module 400 forms a screen by arranging a unit display module composed of a plurality of LEDs with n×m pixels arranged in a matrix form, The luminance correction data is applied in consideration of the luminance of pixels or brightness values, and the image data stream is synthesized with the luminance correction data in real time, and the luminance of the input image data is corrected and the generated image data is displayed.

3 is a configuration diagram of a PIS (Pixel Integrate Scanning) distributed automatic power saving electric sign board MCU according to the present invention, and FIG. 4 shows an internal block diagram for driving PIS power automatic control of the MCU of FIG. 3 . Looking at the detailed configuration and operation of the PIS distributed automatic power-saving electronic display board MCU with reference to FIGS. 230, Gamma controller 250, Space Correction 260, and Auto Flicker Detection 270. The difference between the image reference value of the gamma controller 250 and the correction value of the image normalized by the histogram is compared with the gain control 235 by leveling the data into a histogram and setting the current (If) value flowing through the LED module to change the image quality, Considering the brightness and image size, the change in the deduction loss value due to the difference in power consumption of the displayed image is judged and recognized, and the power saving operation is automatically possible in the display operation of the electronic signboard.

In more detail, the Main process 210 By receiving the video data input from the video signal source 100, driving current is generated to drive each light source of the LED signboard module 400, and the Frame Memory 220 stores the video data of the video signal source 100. When playing through the video switcher, the corresponding video data is saved, and the saved video data is called and transmitted.

Meanwhile, the PIS power saving control 230 is composed of a PIS control 231, a histogram equalization 233, and a gain control 235. The histogram equalization 233 is an image stored in the frame memory 220 in units of frames. The ratio of the number of pixels is displayed as a function for the video signal that is generated by synchronizing the data in the gamma controller (250) and transmitted as a function to uniformize the distribution of the contrast values, divide and smooth the contrast values concentrated in one place, and obtain the image reference value of the gamma value. Set up.

The Gain Control 235 is stored in the Frame memory 220, and the input image data is leveled into a histogram, the current (If) value flowing through the LED module is set, and the image standardized by the image reference value of the Gamma controller 250 and the histogram. Comparing the difference in the correction value of , considering the change in image quality, brightness, and image size, the change in the subtraction loss value due to the difference in power consumption of the displayed image is judged and recognized.

That is, the gain control 235 adjusts the refresh rate high for low gray scales, and when it has high gray scales, the gray scale does not affect the refresh rate. Since the frame frequency of the output image is increased without effect, the gray scale of the output image is lowered and the image is processed smoothly to obtain an improvement in image quality.

The PIS Control (231) equalizes the input image data into a histogram through the Histogram Equalization (233), sets the current (If) value flowing through the LED module, and corrects the image standardized by the image reference value of the gamma controller 250 and the histogram. The difference in value is compared in Gain Control (235), and considering the change in image quality, brightness, and image size, the change in the subtraction loss value is determined by the difference in power consumption of the displayed image. The LED module 400 is automatically controlled to be driven in power saving mode.

The gray pixel control 240 adjusts the refresh rate cycle according to the gray scale of the video signal input to the video signal source 100 to improve the refresh rate of the high gray scale and low gray scale, so that the balance is evenly distributed in the time domain. is captured and the frame frequency of the output image is adjusted so that the flicker for the pigmentation phenomenon is reduced.

Additionally, the Gray Pixel Control (240) generates a driving current to drive each light source of the LED signboard module (400) based on the video signal input from the video signal source (100), and the Frame memory (220) Saves the input image in frame units and adjusts the refresh rate of the low gray scale for the type of input image information in the Gain Control (235) to improve the refresh rate of the high gray scale and the low gray scale to make it uniform in the time domain. The distributed balance is captured and the frame frequency of the output image is adjusted so that the flicker for the pigmentation phenomenon is reduced.

The image data value whose gamma value is determined by the histogram through the Gamma controller 250 is switched to the gray-scaled image in the Gray Pixel Control 240 by scanning and displayed, thereby performing gamma correction of the image and leveling operation with the histogram of the image luminance. run

Additionally, the gamma controller 250 controls luminance correction to improve the uniformity of white balance, color, and brightness of the image that expresses the dot output value of the LED module and the gray scale pixel value, through the Gain Control 235. Regarding the adjusted refresh rate according to the adjusted gray scale, it is converted into the gray scale bit source video signal of the target value, and the gray scale clock suitable for the gray scale bit conversion logic and data clock for transmission and control and synchronization signals of the horizontal synchronization signal is generated to control luminance correction to improve the uniformity of white balance, color, and brightness of the image expressed by the dot output value and gray scale pixel value of the LED module.

The Space Correction 260 is It generates gray scale clock suitable for gray scale bit conversion logic, data clock for transmission and control and synchronization signal of horizontal synchronization signal.

According to the cycle input from the Auto Flicker Detection 270, the flick frequency detected according to the occurrence of flicker and the adjusted integration time are set, transmitted to the LED display module unit 400, and the corresponding video signal is displayed, so that the time, According to the cycle flow, the flicker for the pigmentation phenomenon is expressed in the reduced image.

6 is a configuration diagram of a PIS (Pixel Integrate Scanning) distributed automatic power saving electric sign board SCU according to the present invention, FIG. 7 is a block diagram showing the internal configuration of the Module Driver Unit of FIG. 6, and FIG. A state diagram showing the PIS driving histogram control operation according to FIG. The SCU (300) is largely divided into a PIS Video control (310), a PIS Video Buffer Control (320), and a PIS DATA Control (340). The PIS Video control (310) is the MCU (Main Control Unit) (200) According to the driving of the PIS power saving control 230, the input image data is leveled into a histogram, the current (If) value flowing through the LED module is set, and the image reference value set by the gamma controller 250 and the image leveled by the histogram The difference in correction value is compared in Gain Control (235), and the change in subtraction loss value is determined by the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size, and the gray level (Grey) generated by Space Correction (260) scale) When transmitted including the gray scale clock suitable for the bit conversion logic, the data clock for transmission, and the control and synchronization signal of the horizontal synchronization signal, it is stored in the PIS Video Buffer and converted to the PIS data value by the PIS DATA Control (350). It is expressed in the LED module 400 as a signal.

That is, the current supplied to the LED module 400 is determined according to the pulse wave of the input image, and the current (If) value supplied to the LED module 400 flows when the image pulse wave is “1”. According to the control of the PIS Control (231) in the DATA Control (350), the value set by the histogram gain controller becomes a reference value and is leveled, so the difference between before and after correction of the image is expressed by the LED module 400 as a signal of the PIS DATA value As the current value is set, the difference between the image reference value of the gamma controller and the image correction value leveled with the histogram is the difference in the power consumption of the displayed image, resulting in power saving.

As shown in the attached FIG. 9, the conventional resistance (R) is fixed as in the configuration of the Dot Register of the LED module applied to the present invention, and the brightness of the image is fixed with respect to the LED and series connection structure by fixing the resistance (R) value. , As the LED chip is driven with a fixed value of the existing Vf value, it cannot respond to changes in the operating current (if) value, so the LED module life span is shortened due to heat generation in the LED module and LED chip through active power consumption In order to solve the problem, by additionally configuring the PIS DATA Control at the LED stage, the standard value of the color value of the first image value (white, red, blue, green) on the basis of a simple image pulse is standardized as a histogram, By setting the current (If) value, the difference between the image reference value of the gamma controller 250 and the image correction value normalized by the histogram causes a difference in power consumption of the displayed image, resulting in power saving, thereby extending the life of the LED module. It is extended, and it can solve the power saving of current.

100: video signal source
200: MCU (Main Control Unit)
210: Main Process 220: Frame memory
230: PIS Power Saving Control
231: PIS Control 233: Histogram Equalization
235 : Gain Control
240 : Gray Pixel Control 250 : Gamma Controller
260 : Gamma Correction 270 : Auto Flicker Detection
300: SCU (Sub Control Unit)
340: PIS DATA Control
400: LED display module

Claims (4)

An image signal source 100 supplying an image signal to be displayed on the LED signboard module 400;
The video signal input through the PIS Power saving Control (230) is leveled into a histogram, and the current (If) value flowing through the LED is set. MCU (Main Control Unit) transmits the corresponding image information to save power by specifying the current value for displaying on the display board by judging the change in the deduction loss value by the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size ) (200);
The current value equalized by the histogram transmitted through the PIS Power saving Control 230 of the MCU 200 is set to a value determined by comparing the difference between the image reference value of the gamma controller and the image correction value normalized by the histogram in the gain controller. SCU (Sub Controller Unit) 300 that transmits the difference between before and after correction of the image to the LED module 400 as a PIS DATA value signal to be expressed; and
A unit display module consisting of a plurality of LEDs arranged for each n × m pixel of Dot (R, G, B) in Module Array format is arranged in a matrix form to form a screen, and for the video signal input through the video input device An LED signboard module 400 that receives and displays image information according to the change in the variance subtracted loss value compared with the gain controller and the correction value equalized in the histogram by the PIS controller value through the reference value of the image value of the gamma controller 400. PIS distributed automatic power-saving electronic signboard, characterized in that configured.
According to claim 1,
The MCU 200 is
PIS controls the drive current of the LED module according to the change in the histogram equalized correction value by the PIS controller value through the reference value of the gamma controller image value of the input image and the compared variance subtraction loss value of the gain controller so that there is no unnecessary power loss. PIS distributed automatic power-saving electronic signboard, characterized in that configured to control the driving of the LED signboard to save power through control
According to claim 1,
The MCU (Main Control Unit) 200
Main process (210) for receiving the image data input from the image signal source 100 and generating driving current to drive each light source of the LED sign board module 400;
When the video data of the video signal source 100 is reproduced through the video switcher, the corresponding video data is stored. A frame memory 220 that reads and transmits the stored video data,
The difference between the image reference value of the gamma controller 250 and the correction value of the image normalized by the histogram by setting the current (If) value flowing through the LED module by equalizing the image data input through the frame memory into a histogram is Gain Control (235) PIS that determines the change in deduction loss value by the power consumption difference of the displayed image in consideration of the change in image quality, brightness, and image size by comparing in Power saving Control(230),
By controlling the refresh rate cycle according to the gray scale of the video signal input to the video signal source 100, the refresh rate of the high gray scale and the low gray scale is improved to capture the balance equally distributed in the time domain, and the output image Gray Pixel Control (240), which controls the flicker for pigmentation by adjusting the frame frequency,
The Gamma controller (250) executes the gamma correction of the image and the leveling operation with the histogram of the image luminance by processing the image data value whose gamma value is determined by the histogram by switching the gray-scaled image in the Gray Pixel Control (240) by scanning and displaying it. , and
According to the input cycle, the Flick frequency detected according to the occurrence of flicker and the adjusted integration time are set and transmitted to the LED signboard module unit 400, and the corresponding image signal is expressed, thereby reducing the pigmentation phenomenon according to the flow of time and cycle. A PIS distributed automatic power-saving electric signboard, characterized in that it is configured to further include an Auto Flicker Detection (270) that allows flicker to be displayed in a reduced image.
According to claim 3,
The PIS Power saving Control (230)
Image data stored in frame units in the frame memory 220 is synchronized and generated by the gamma controller 250, and the ratio of the number of pixels to the transmitted image signal is displayed as a function to uniformize the distribution of contrast values and concentrate in one place Histogram Equalization (233), which sets the image reference value of the gamma value by dividing and smoothing the contrast values;
The input image data stored in the frame memory (220) is normalized into a histogram, the current (If) value flowing through the LED module is set, and the difference between the image reference value of the gamma controller (250) and the correction value of the normalized image is compared with the histogram. Therefore, the change in the subtraction loss value is determined by the difference in power consumption of the displayed image, considering the change in image quality, brightness, and image size. Recognizing Gain Control (235) and
The input image data is equalized into a histogram through the Histogram Equalization (233), and the current (If) value flowing through the LED module is set, and the difference between the image reference value of the gamma controller 250 and the correction value of the image normalized by the histogram is Gain Control. (235), if the change in the deduction loss value is determined by the difference in power consumption of the displayed image in consideration of the change in image quality, brightness, and image size, the current value for displaying on the electronic signboard is designated and transmitted so that the LED module 400 A PIS distributed automatic power-saving electronic signboard, characterized in that it is configured to further include a PIS Control (231) for controlling power-saving operation.

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